Scenarios & trends of evolution in the industrial systems Prof. Andrea Sianesi

Corso di Progettazione e Gestione della SupplyChain (PGSC) Facoltà di Ingegneria Scenarios & trends of evolution in the industrial systems Prof. Andrea Sianesi Politecnico di Milano, Schoolof Management Centrodi Ricercasulla Logistica

The “New Economy” e-Business e-Commerce e-Procurement Supply Chain Management Web-based Portal @ Application Server Provider on-Line catalog Even if super-effective, your marketplace doesn’t load a truck

Supply Chain Management – key concepts Core ideas, processes source-make-deliver Performance and trade-off Supply chain strategies Trend and main challenges Agenda

1950: Toyota produces on a day what Gm produces in a year 1980: Toyota reaches an amount of sales so high to lead USA automotive industry to a crisis and to compete easily with GM, Ford, Daimler Chrysler …realizing a product that is better on a quality level, at lower costs, and with a higher client service… …thanks to the fact that Toyota has considered Operations and Supply Chain Management as the central elements of its strategy The relevance of a “right” management of Operations & Supply Chain

The relevance of a “right” management of Operations & Supply Chain • It takes a typical box of cereal more than 3 months to get from the factory to the supermarket • It takes a typical new car, on average, 15 days to travel from the factory to the dealership. The actual travel time is no more than 4 to 5 days • P&G saved retail customers $65 million over the past 18 months (collaboration) • Enel saved over €10 mln by using auctions in the purchasing process • National Semiconductor reduced distribution costs by 2.5%, decreased delivery time by 47%, and increased sales by 34% • Wal-Mart best practices have cut the cost of sales by 3% compared to the industry average • Lucent Technologies obtained $100 mln stock-out reduction and $3 mln inventory reduction by collaborating with its suppliers

Activities and decisions connected to the management of: Physical flows of materials and goods from the source to consumption points. Information flows from final users to the sources. Logistic system: all the infrastructures, tools, human resources and management policies that allow the needed physical flows and information flows The logistic macro-process

“All the different actors, infrastructures, resources, processes and activities (and the links between them) that attend from the sourcing of raw materials, to transformation in semi-finished products and finished products to distribution of finished products to clients” Warehouse Storage Plant Warehouse Storage Plant Storage Warehouse The supply chain manufacturing finished goods storage raw material supply raw material storage Market (user or customer) Inbound logistics Outbound logistics

SUPPLY CHAIN MANGEMENT “Supplychain management is the integration of business processesfrom end userthroughoriginalsupplierstahtprovidesproducts, services and information thataddvalueforcustomers”. The Global SupplyChain Forum SupplyChain Management isregardingall the company processes at strategic and tacticallevel and notonly the logisticsprocesses (e.g. productdevelopment) LOGISTICS “Logisticsisthat part of the supplychainprocessthatplans, implements and controls the efficient, effective flow and storageofgoods, services and related information..” CLM (CouncilofLogistics Management), 2000 Logisticsisregardingspecificissuesthat do notbelongto the conceptofSupplyChain Management (es. material handling, warehousing, etc.) Logistics Vs. SCM

plan source make deliver Logistic and supply chain management Process of planning, management and control of the effective and efficient supply, flow and stock of goods, services and related information from the point of origin to the point of consumption to satisfy clients needs (internal or external). Font: adapted from Council of Logistics Management

Logistics into a Supply Chain plan source make deliver deliver source make deliver source make deliver source Suppliers’ suppliers Suppliers A ring of the Supply Chain Clients Clients’ clients plan plan Supply Chain Management plan source make deliver deliver source make deliver source make deliver source Suppliers’ suppliers Suppliers A ring of the Supply Chain Clients Clients’ clients plan plan From Logistics to Supply Chain Management

Enlargement from the single firm to the clients, the suppliers, the suppliers’ suppliers, ecc… Not only infrastructures but especially issues regarding management and information coordination between actors Plan Make Deliver Source Deliver Source Make Deliver Source Make Deliver Source Return Return Return Supplier Internal or External • Customer • Internal or External Return Customer’s Customer Suppliers’ Supplier • Your Company From Logistics to Supply Chain Management

Produc- tion Demand Supply Distribution Inventory plan The decisions – the problems   SUPPLY CHAIN CONFIGURATION STRATEGY OF SERVING THE CLIENT Strategic  SUPPLY CHAIN OPERATIONAL PLANNING Tactical  EXECUTION Suppliers Operative source make stock deliver Clients Decision Level  SYSTEM GOVERNANCE

PRODUCTIVITY Capital (fixed and circulating), materials and labour QUALITY Compliance, Project, Durability and Maintainability FLEXIBILITY Product, Volume, Mix, ... SERVICE Customizzation (flex), timeliness and punctuality, after sale, delivery flexibility Classical performances…

Revenues Costs Service …translated into “logistical” perfomances • SERVICE LEVEL • Multidimensionalconcept • LOGISTICAL TOTAL COST • Costtoprovide a certain service level

Distribution costs (% of turnover / +/- trend) US EU Inventories 1,64% ?? 1,51% ?? Admin 0,35% - 0,52% - Order management 0,59% - 0,94% - Fixed assets 1,90% 2,22% Transportation 2,84% +++ 2,72% +++ Total 7,22% 7,80% Herbert Davies (400 companies) Logistic costs in US and EU

Alcatel (TLC) Comply with delivery terms Report on delivery forecast Correspondence between packing list, documentation and delivered material Physical integrity Spare parts available in the long run Barilla (food) Cycle time of order fulfilment Dependability Correspondence between packing list, documentation and delivered material Minimum acceptable order size Maximum frequency of order processing Physical integrity Rush orders Change orders Order tracking Service level

Effects of poor service

LS Cost/ service trade-off management • Budget approach Given the LTC, logistics choices to max SL • Marketing approach Definition of the SL (level of the marketing mix). Logistics management to minimize LTC • Analytical approach Concurrent definition of LTC and SL. Economic evaluation of the cost of the “lost” service (e.g. stock out cost) Trade-off optimization

COMPLEXITYVariety of the elements that should be known in order to manage coherently the process of Supply Chain Management UNPREDICTABILITYReliability of the information and knowledge needed to manage the process SCM issues depend on the context

The “structural” (phisycal) evolutionof the SC vs the context corporate strategy Supplychainconfigurationdrivers (RST) The evolutionarystepsofsupplychain Supplychainthrough the pastcentury What’s next?

“A look at the past” Evolution of SOCIAL CONTEXT Evolution ofTECHNOLOGY Evolution of RELATIVE IMPORTANCE of COMPETITIVE VARIABLES How does the industrial model change as a consequence?

Saturation: Market Demand vs Production Capacity Standardization of Demand Resources: access to convenient production factors Transaction Costs: vertical integration Supply market: availability of specialized suppliers Supply chain configuration drivers R S T 3

Supply chain is a creature who evolved in time Each decade is characterized by different values of drivers and thus different supply chain configurations Not each step is mandatory Supply chain evolution ’60/’70 1980 1990 2000

Total vertical integration Big departments Everything in the same place: no need for ICT Emphasis on Making Integration through ownership Low globalization Few client/supplier interfaces End products Raw materials 1. Supply chain in the 60s/70s Resources: Availability of production factors Saturation: Demand >> Capacity Standardization: Standard demand Supply: No specialized suppliers Transaction Costs: Low • Which was the context in the 60s?

1. Supply chain in the 60s/70s “Industrial model” till the end of the ’60 Problem: Growth of volume in order to match a SPARKLING DEMAND Solution:SIZE and VERTICAL INTEGRATION

1. Supply chain in the 60s/70s “Industrial model” till the end of the ’60 Evaluation criteria: REVENUES and CONSUMPTION of PRODUCTION FACTORS; “installed power” Service / Quality:“marginal”: the most important to do is to MAKE AVAILABLE a PRODUCT

“Pressures” on industrial firms (since the end of ’60s) 1. Supply chain in the 60s/70s • GrowingCOMPETITION • Itisnotenoughthatyou “produce”: youmust “SELL” • INDUSTRIAL COSTS control • Oil crisis: rawmaterials and energy out of control • OVERCAPACITY (in some industries) • Lookingforeconomies of experience • Growing of CONFLICTSinINDUSTRIALRELATIONS

“Pressures” on industrial firms (since the end of ’60s) 1. Supply chain in the 60s/70s Need to compete using the level of price to maintain or to gain market share Looking for elements of INDUSTRIALDIFFERENTIATION FACTORIES MUST CONTAIN COSTS : BE EFFICIENT The costs of production factors follow EXOGENOUS dynamics

1. Supply chain in the 60s/70s The ANSWERS: DECENTRALIZATION and DEVERTICALIZATION HIGH INDUSTRIAL AUTOMATIZATION CONCENTRATION at CORPORATE LEVEL

Vertical disintegration Production decentralization Flexible specialization Districts Widespread know-how Third party work (Italy: ’“indotto”) Raw materials End products Districts 2. Supply chain in the 80s Resources: Growing costs of production factors Saturation: Demand << Capacity Standardization: Less standard demand Supply: Small and close specialized suppliers Transaction Costs: Low • Crisis of the big integrated firm • Focus on know-how transfer, cost reduction, flexibility • Different paths. Ex: Marelli (growth), Benetton (born disintegrated)

2. Supply chain in the 80s Industrial model in the ‘70s Make or buy: Outsourcing: VALUE ADDED TRANSFER… ... Management resources are freed: they will be focused on “critical” technologies … … possibility to have specialized suppliers Automation:“SUBSTITUTION of COSTS with INVESTEMENTS”

2. Supply chain in the 80s Industrial model in the ‘70s Evaluation criteria: STILL ORIENTED TO COST REDUCTION… Service / Quality: still “residual”: what is important is that PRODUCT COST IS LOW

2. Supply chain in the 80s In the industrial model of the ’70s AUTOMATION is more and more INTEGRATED C.I.M. Integration level is dramatically reduced from the mid ’80s Integration F.M.S. Robot C.N.C.

The fall of prices is structural (fonte: 3° CEO Conference in Italy, Mc Kinsey & Mondo Economico) Electronics for telecomunications Plant for electricity production USA financial services Sweden and UK Telecom Year after the begin of deregulation 2. Supply chain in the 80s

No more districts Many specialized (and big) suppliers around the world Globalization ICTs support Coordination mechanisms Supply chain management Raw materials End products Outsourced activities 3. Supply chain in the 90s Resources: Access to global production factors Saturation: Demand << Capacity Standardization: Wide range of needs Supply: Highly specialized suppliers Transaction Costs: Variable • Crisis of industrial districts • Outsourcing and offshoring to Romania, Czech Republic, China,…

3. Supply chain in the 90s Since the beginning of the second half of the ’80s the relative importance of the “competitve variables” has changed significantly …. …from INTERNAL EFFICIENCY… … to EFFECTIVENESS EXTERNAL to the firm Importance Time & product range Quality Cost Year

No more districts Many specialized (and big) suppliers around the world Globalization ICTs support Coordination mechanisms Supply chain management Raw materials End products Outsourced activities NEW MARKETS! 4. Supply chain in 2000 Resources: Access to global production factors Saturation: Demand >> Capacity Standardization: Wide range of needs Supply: Highly specialized suppliers Transaction Costs: Variable • Discovering of new markets: once again D>C • There are some differences with Stage 1: • technological skills • innovation • focus: not only cost reduction • lean supply chain

Internationalization, globalization of delivery & supply markets and of manufacturing facilities 4. Supply chain in 2000 The industrial model since the ’90s has been affected by : Exploding growth rates of mix & mass customization issues Critical acceleration of the speed of every process (“e-” rate)

Product range growing derivatives are impressive 4. Supply chain in 2000 (source: Bain Cuneo, analysis of Industrial Goods Producers) Managed codes (source: data of a firm in the electrmechanical sector) Products Components

Today's developing countries reflect Stage 1 Departments are even bigger! Ex: Johnson Is the cycle going to start again… …or a new solution will emerge? What’s next? Decentralization Outsourcing New markets Vertical integration ? ’60/’70 1980 1990 2000

The dilemma How to match the challenges of effectiveness (Time, Quality, Range) with the needs of efficiency?

The dilemma The prevailing idea since the end of the ‘90s is that: It is not allowed not be efficient (cost reduction) However with respect to the previous scenarios cost reduction is not “enough by itself”… …butitbecomesan industrial objectivethat can notbeprocrastinatedasitis the meanstoreleaseresourcestobe more effective (better SERVICE, better QUALITY)

RESPONDING PRACTICES EMERGING TRENDS sustainability: new elements to the Supply Chain equation Supply Chain complexity explosion variety alignment challenge Supply Chain virtualisation Master Data Management - Product Lifecycle Management strategic asset optimisation “Designed” Make Or Buy Risk Management emerging trends & responding practices overlapping Supply Chain model Sales & Operations Planning postponement

Scenarios & trends of evolution in the industrial systems Prof. Andrea Sianesi